Study on the Cool Roofs Mitigation Potential in Australia
Funded by the Department of Industry, Science, Energy and Resources (DISER)
Funded by the Department of Industry, Science, Energy and Resources (DISER)
The outdoor air temperature in major Australian cities can be reduced by 2.1- 2.5掳C with solar reflective roofs 鈥 light coloured or cool coloured - which additionally reduce the cooling energy consumption of buildings.
The aim of this project is to understand the applicability and costs & benefits of using cool roof technologies on Australian buildings and to identify any barriers to adoption.
Mesoscale climate simulations demonstrated that the use of cool roofs on all buildings reduces the maximum peak ambient temperature by 2.4掳C, 2.1 掳C and 2.5 掳C in Sydney, Melbourne and Brisbane, respectively compared to the existing conditions. The maximum decrease in the sensible heat flux is of 292.8 W/m2. Further effects of an increase in the urban albedo are an average reduction of the planetary boundary layer heights over the city by up to 1608 m and a maximum decrease in wind speeds by up to 3.9 m/s.
Reduction of ambient temperature at (a) 06:00 LT (b) 14:00 LT, and (c) 18:00 LT: The maximum decrease of the ambient temperature during 18:00 LT is 1.9掳C over eastern Sydney and the average decrease of summer months is 1.1掳C
Reflective roofing can both mitigate the outdoor air temperature and reduce the cooling energy consumption of buildings, in all Australian cities. The use of cool roofs is associated with heating penalties 鈥 i.e., higher heating energy needs 鈥 which are largely outweighed by the cooling energy savings, already in the present climate context. Cooling energy savings are not limited to poorly insulated low-rise buildings. Also high-rise insulated buildings benefit from a city-wide application of reflective roofing, because of the reduced outdoor air temperature.
School of Built Environment | Faculty of Arts, Design and Architecture | UNSW
Prof Mattheos Santamouris, Dr Samira Garshasbi, Dr Jie Feng, Dr Samaneh Arasteh, Dr Riccardo Paolini, Dr Afroditi Synnefa, Dr Shamila Haddad, Kai Gao, Prof Deo Prasad,聽A/Prof Lan Ding, A/Prof Paul Osmond
Project partners & collaborators
鈥 University of Adelaide
鈥 nedesign聽
International project partners & experts
- Department of Geography, Lalbaba College, University of Calcutta, India
Prof Denia Kolokotsa, Technical University of Crete, Greece
Stelios Diakrousis, Technical University of Crete, Greece
- Department of Mechanical Engineering, Aristotle University Thessaloniki, Greece
Kurt Shickman, Global Cool Cities Alliance, USA
In the media:
Previous research papers on the mitigation potential of cool roofs & cool materials at large:
Cities overheating due to urbanization and global climate change are leading to increases in outdoor air temperatures and building cooling loads.
This project assesses the costs and benefits of cool roofs in Australia. The project was performed for the cities of Adelaide, Brisbane, Melbourne, Perth, and Sydney for January and February 2017.
A cool roof has been designed to stay cool in the sun by reflecting most sunlight and retaining the least heat, unlike a conventional solar absorptive roof.